CN113776247B - Ice discharging device and ice maker with same - Google Patents

Abstract

The invention discloses an ice outlet device and an ice maker with the same, comprising an ice storage cavity, a wave wheel, a switching plate and a driving assembly, wherein a first ice outlet and a second ice outlet are formed in the ice storage cavity; the driving assembly comprises a driving motor, a driving shaft sleeve and a spring, the lower end part of the driving shaft sleeve is connected with the driving motor in a linkage way, the upper end part of the driving shaft sleeve is connected with a wave wheel positioned in the ice storage cavity in a linkage way, and the middle part of the driving shaft sleeve is provided with a shelving part; the switching plate is sleeved on the driving shaft sleeve and is placed on the placing part, a meshing transmission structure is arranged between the placing part and the switching plate, the spring enables the placing part to always have acting force for upward movement and stable meshing transmission of the switching plate, and meanwhile, when the switching plate is blocked from rotating, the spring can be compressed to enable the placing part and the switching plate to slide. According to the ice cube pushing device, the switching plate and the pulsator are driven to rotate in the forward direction or the reverse direction through the driving motor, so that different ice cubes are opened, and the pulsator normally rotates to push the ice cubes into the corresponding ice cubes, so that different operations on the ice cubes are facilitated.

Description

Ice discharging device and ice maker with same

Technical Field

The invention relates to the technical field of ice machines, in particular to an ice discharging device and an ice machine with the same.

Background

An ice maker (english name: ice maker or ICE MACHINE) is a refrigeration mechanical device that cools water by a refrigerant of a refrigeration system through an evaporator to generate ice; with the development of ice making machine technology, various ice making machines appear in the existing market, meanwhile, users do not meet simple ice cubes any more, and the demands for special ice such as ice sand are more and more; however, the existing ice maker is provided with only one ice outlet, ice cubes or bullet ice can be simply prepared, other auxiliary shredding devices are needed to be purchased when special ice such as ice sand is needed to be prepared, the use cost is greatly increased, meanwhile, the use experience is poor, and the room for improvement is provided.

Disclosure of Invention

The invention aims to overcome the defects in the prior art, and provides an ice discharging device, which drives a switching plate and a pulsator to rotate simultaneously through a driving motor, and the switching plate covers a first ice outlet or a second ice outlet through the forward rotation or the reverse rotation of the driving motor, and the pulsator pushes ice cubes into the corresponding ice outlet; when the switching plate rotates to the first position or the second position, the rotation is blocked, and the driving motor rotates normally, the driving shaft sleeve is stressed to move downwards so that slipping occurs between the placing part and the switching plate, so that the switching plate is stably kept at the first position or the second position, the impeller can be driven to rotate normally so as to push ice cubes into the corresponding ice outlet, different operations, such as ice crushing, can be performed on the ice cubes of different ice outlets, the ice maker has the function of preparing different ice products, and the user experience is greatly improved.

In order to achieve the above purpose, the invention provides an ice discharging device, which comprises an ice storage cavity, a wave wheel, a switching plate and a driving component, wherein a first ice outlet and a second ice outlet are formed in the side wall of the ice storage cavity;

The driving assembly coaxially drives the impeller and the switching plate to rotate, a limiting structure for restraining the switching plate to rotate is arranged on the lower surface of the bottom of the ice storage cavity so that the switching plate rotates between a first position and a second position, and the first ice outlet and the second ice outlet are respectively blocked when the switching plate is in the first position and the second position;

the driving assembly comprises a driving motor, a driving shaft sleeve and a spring, wherein the driving motor is fixedly arranged below the ice storage cavity, the lower end part of the driving shaft sleeve is connected with an output shaft of the driving motor in a linkage manner, the upper end part of the driving shaft sleeve penetrates through the bottom of the ice storage cavity to be connected with an upper impeller in a linkage manner, and a shelving part is arranged in the middle of the driving shaft sleeve;

The switching plate is sleeved on the driving shaft sleeve and is placed on the placing part, a meshing transmission structure is arranged between the placing part and the switching plate, the spring acts on the placing part to enable the placing part to always have acting force for upward movement and stable meshing transmission with the switching plate, and meanwhile, when the switching plate is blocked from rotating, the spring can be compressed to adapt to downward movement of the placing part.

Further provided is that: the driving assembly further comprises a spring sleeve arranged outside the driving shaft sleeve, and the spring sleeve is sleeved on the driving shaft sleeve and is in abutting connection between the placing part and the spring sleeve;

The rest part is integrally connected with the driving shaft sleeve, and the lower end part of the driving shaft sleeve is limited to circumferentially rotate and is sleeved on the output shaft of the driving motor and can axially slide along the output shaft.

Further provided is that: a driving piece is arranged between the placing part and the switching plate, the driving piece is sleeved on the driving shaft sleeve and is installed on the placing part in a limiting circumferential rotation mode, a plurality of linkage grooves are formed in the periphery of the upper surface of the driving piece at intervals, and linkage protrusions matched with the linkage grooves are correspondingly arranged on the lower surface of the switching plate.

Further provided is that: the two sides of the linkage groove corresponding to the notch are provided with guide inclined planes, and the lower end part of the linkage protrusion is of a spherical structure.

Further provided is that: the driving piece is embedded in the caulking groove formed by the surrounding of the blocking edge, the clamping groove is formed in the lower surface of the driving piece, and the clamping block matched with the clamping groove is correspondingly arranged on the upper surface of the placing portion.

Further provided is that: the ice crushing assembly is correspondingly arranged at the second ice outlet to crush the passing ice cubes.

Further provided is that: the switching plate is of a fan-shaped structure, and the outer edge of the switching plate is upwards turned and folded to form a baffle plate part for sealing the first ice outlet or the second ice outlet.

Further provided is that: the impeller is mushroom-shaped, a plurality of pits are formed in the periphery of the upper surface of the head of the impeller at intervals, and the rod of the impeller is sleeved on the upper end of the linkage shaft sleeve.

Further provided is that: the lower surface of the head of the impeller is provided with a first water retaining rib corresponding to the outer Zhou Huanzhou of the rod part, and the upper surface of the bottom of the ice storage cavity is correspondingly provided with a second water retaining rib matched with the first water retaining rib.

The invention also provides an ice maker, which comprises an ice making assembly, a water tank assembly, a control panel assembly and an ice discharging device;

the control panel assembly is in signal connection with the ice making assembly, the water tank assembly and the ice discharging device;

The water tank assembly is used for supplying water required for making ice to the ice making assembly, and the ice making assembly is used for cooling the water supplied by the water tank assembly to prepare ice cubes;

The ice storage cavity of the ice discharging device is positioned below the ice making assembly to receive ice cubes prepared by the ice making assembly and discharge the ice cubes through the first ice discharging port or the second ice discharging port according to the requirement.

Compared with the prior art, the invention has simple and reasonable structure, and the switching plate and the impeller are simultaneously driven to rotate by one driving motor, so that the manufacturing cost is greatly reduced; the first ice outlet or the second ice outlet is sealed by the switching plate through the forward rotation or the reverse rotation of the driving motor, and the ice cubes are pushed into the corresponding ice outlets by the impeller; when the switching plate rotates to the first position or the second position, the rotation is blocked, and the driving motor rotates normally, the driving shaft sleeve is stressed to move downwards so that slipping occurs between the placing part and the switching plate, so that the switching plate is stably kept at the first position or the second position, the impeller can be driven to rotate normally so as to push ice cubes into the corresponding ice outlet, different operations, such as ice crushing, can be performed on the ice cubes of different ice outlets, the ice maker has the function of preparing different ice products, and the user experience is greatly improved.

Drawings

FIG. 1 is a schematic perspective view of an ice-discharging device according to the present invention;

FIG. 2 is a schematic view of a vertical sectional structure of the ice discharging device;

FIG. 3 is a schematic view of a transversal cross-sectional structure of the ice-discharging device;

fig. 4 is a schematic perspective view of a switching plate;

FIG. 5 is a schematic perspective view of a drive sleeve;

FIG. 6 is a schematic perspective view of a driving plate;

fig. 7 is a schematic view of a vertical sectional structure of an ice maker according to the present invention.

The following reference numerals are attached thereto in combination with the accompanying drawings:

100. An ice discharging device; 1. an ice storage chamber; 11. an ice outlet part; 111. a first ice outlet; 112. a second ice outlet; 113. second water blocking ribs; 2. a pulsator; 21. pit; 22. a first water blocking rib; 3. a switching board; 31. a baffle plate portion; 32. a linkage protrusion; 4. a drive assembly; 41. a drive motor, 42, a drive shaft sleeve; 421. a rest portion; 4211. a blocking edge; 4212. a clamping block; 43. a spring; 44. a spring sleeve; 45. a driving plate; 451. a linkage groove; 452. a clamping groove; 5. a shredding assembly; 200. an ice making assembly; 300. a water tank assembly; 400. and a control board assembly.

Detailed Description

One embodiment of the present invention will be described in detail below with reference to the attached drawings, but it should be understood that the scope of the present invention is not limited by the embodiment.

The invention discloses an ice discharging device, which is shown in figures 1,2 and 3, and comprises an ice storage cavity 1, a wave wheel 2, a switching plate 3, a driving component 4 and a shredding component 5; the ice storage cavity 1 preferably has a barrel-shaped ice outlet 11, a first ice outlet 111 and a second ice outlet 112 are arranged on the side wall of the ice outlet 11, and the shredding assembly 5 is arranged at the second ice outlet 112 to shred the passing ice cubes; the impeller 2 and the switching plate 3 are respectively installed at the upper side and the lower side of the bottom of the ice outlet 11, the driving assembly 4 is used for coaxially driving the impeller 2 and the switching plate 3 to rotate, wherein the impeller 2 can rotate 360 degrees in the ice outlet 11, the lower surface of the bottom of the ice outlet 11 is provided with a limiting structure for restraining the switching plate 3 to rotate so that the switching plate 3 is restrained between a first position and a second position, the switching plate 3 covers the first ice outlet 111 in the first position and covers the second ice outlet 112 in the second position, and the limiting structure of the bottom of the corresponding ice outlet 11 can be a limiting groove structure or a limiting rib corresponding to the first position and the second position.

In the above scheme, as shown in fig. 2 specifically, the driving assembly 4 includes a driving motor 41, a driving shaft sleeve 42 and a spring 43, the driving motor 41 is fixedly installed below the ice storage cavity 1, the lower end of the driving shaft sleeve 42 is connected with the output shaft of the motor in a linkage manner, and the upper end of the driving shaft sleeve 42 passes through the bottom of the ice outlet 11 to be connected with the upper pulsator 2 in a linkage manner; the middle part of the driving shaft sleeve 42 is also provided with a placing part 421, the switching plate 3 is sleeved on the driving shaft sleeve 42 and placed on the placing part 421, an engagement transmission structure is arranged between the placing part 421 and the switching plate 3, the spring 43 acts on the placing part 421 to enable the placing part 421 to always have acting force for upward movement and stable engagement transmission of the switching plate 3, and when the switching plate 3 is blocked from rotating, the spring 43 can be stressed and compressed to enable the placing part 421 to move downward to break the engagement transmission structure between the placing part 421 and the switching plate 3 so as to ensure that the driving motor 41 rotates normally.

In the above scheme, the downward movement of the rest portion 421 under force may be that the rest portion 421 slides down along the driving shaft sleeve 42, or may be that the driving shaft sleeve 42 moves down integrally; preferably, the driving assembly 4 further includes a spring housing 44, the spring housing 44 is sleeved outside the driving shaft sleeve 42, and the upper end portion of the spring housing 44 can extend upwards to be combined with the first ice outlet 111 and the second ice outlet 112 to form an ice outlet slideway, the spring 43 is in abutting connection with the bottom of the spring housing 44 and the rest portion 421, the rest portion 421 is integrally connected with the driving shaft sleeve 42, and the lower end portion of the driving shaft sleeve 42 is sleeved on the output shaft of the driving motor 41 and can slide along the axial direction of the output shaft, so that the whole driving shaft sleeve 42 can move downwards when the rest portion 421 is stressed.

In the above-mentioned scheme, as shown in fig. 4, 5 and 6, an annular driving piece 45 made of wear-resistant material is arranged between the rest portion 421 and the switching plate 3, the driving piece 45 is sleeved on the driving shaft sleeve 42 and is mounted on the rest portion 421 in a rotation-limiting manner, preferably, the rest portion 421 is provided with a blocking edge 4211 along the periphery of the outer edge thereof, the upper surface of the rest portion 421 is provided with a plurality of clamping blocks 4212, the driving piece 45 is embedded in a embedding opening formed by the matching of the blocking edge 4211, and the lower surface of the driving piece is provided with a clamping groove 452 matched with the clamping blocks 4212; a plurality of linkage grooves 451 are uniformly arranged on the periphery of the upper surface of the driving piece 45 at intervals, a plurality of linkage protrusions 32 matched with the linkage grooves 451 are arranged on the lower surface of the switching plate 3, and preferably, guide inclined planes are arranged on two sides of the linkage grooves 451 corresponding to the notch, and the lower end parts of the linkage protrusions 32 are in spherical structures; thus, when the driving motor 41 drives the switching plate 3 to rotate between the first position and the second position, the upward elastic force of the spring 43 is larger than the downward acting force formed between the rest portion 421 and the switching plate 3, and at this time, the linkage groove 451 and the linkage protrusion 32 can be stably matched to drive the switching plate 3 to rotate; when the switching plate 3 rotates to the first position or the second position, the upward elastic force of the spring 43 is smaller than the downward acting force between the rest portion 421 and the switching plate 3, at this time, the driving shaft sleeve 42 moves downward, and the spherical end of the linkage protrusion 32 can conveniently pass through the linkage groove 451 through the guiding inclined plane to achieve the slipping effect, so that the normal rotation of the driving motor 41 is ensured.

In the above-described configuration, as shown in fig. 4, the switching plate 3 has a fan-shaped structure, and the outer edge end of the switching plate 3 is folded upward to form the shutter portion 31 for closing the first ice outlet 111 or the second ice outlet 112.

In the above scheme, as shown in fig. 2, the pulsator 2 has a mushroom structure, the root of the pulsator 2 is limited to circumferentially rotate and is sleeved on the upper end of the linkage shaft sleeve and can axially slide along the linkage shaft sleeve, a plurality of pits 21 are formed in the periphery of the pulsator 2 corresponding to the upper surface of the head of the pulsator 2 at intervals, and ice cubes can be conveniently thrown into corresponding ice outlets through the pits 21; the outer Zhou Huanzhou of the lower end face of the impeller 2 corresponding to the root of the head is provided with a first water retaining rib 22, and the bottom of the ice outlet 11 is correspondingly provided with a second water retaining rib 113 matched with the first water retaining rib 22, so that a water retaining ring can be effectively formed by matching the first water retaining rib 22 and the second water retaining rib 113 to avoid water from entering the water retaining ring.

The invention also provides an ice maker as shown in fig. 7, which comprises an ice making assembly 200, a water tank assembly 300, a control panel assembly 400 and the ice discharging device, wherein the control panel assembly 400 is in signal connection with the ice making assembly 200, the water tank assembly 300 and the ice discharging device so as to orderly control the work of each component; the water tank assembly 300 is used for supplying water required for ice making to the ice making assembly 200, the ice making assembly 200 is used for cooling the water provided by the water tank assembly 300 to prepare ice cubes, and the ice making assembly 200 can be the ice making assembly 200 in an ice grid form or can be the bullet-shaped ice making assembly 200; the ice storage chamber 1 of the ice discharging device is positioned below the ice making assembly 200 to receive ice cubes made by the ice making assembly 200 and discharge the ice cubes through the first ice outlet 111 or the second ice outlet 112 as required, and the first ice outlet 111 or the second ice outlet 112 is opened by the driving motor 41 to be rotated in the forward direction or the reverse direction and the ice cubes are thrown into the corresponding ice outlet to be discharged through the rotating pulsator 2.

Compared with the prior art, the invention has simple and reasonable structure, and the switching plate and the impeller are simultaneously driven to rotate by one driving motor, so that the manufacturing cost is greatly reduced; the first ice outlet or the second ice outlet is sealed by the switching plate through the forward rotation or the reverse rotation of the driving motor, and the ice cubes are pushed into the corresponding ice outlets by the impeller; when the switching plate rotates to the first position or the second position, the rotation is blocked, and the driving motor rotates normally, the driving shaft sleeve is stressed to move downwards so that slipping occurs between the placing part and the switching plate, so that the switching plate is stably kept at the first position or the second position, the impeller can be driven to rotate normally so as to push ice cubes into the corresponding ice outlet, different operations, such as ice crushing, can be performed on the ice cubes of different ice outlets, the ice maker has the function of preparing different ice products, and the user experience is greatly improved.

The above disclosure is merely an example of the present invention, but the present invention is not limited thereto, and any variations that can be considered by a person skilled in the art should fall within the protection scope of the present invention.

Claims (10)

1. The ice discharging device is characterized by comprising an ice storage cavity, a wave wheel, a switching plate and a driving assembly, wherein a first ice outlet and a second ice outlet are formed in the side wall of the ice storage cavity;

The driving assembly coaxially drives the impeller and the switching plate to rotate, a limiting structure for restraining the switching plate to rotate is arranged on the lower surface of the bottom of the ice storage cavity so that the switching plate rotates between a first position and a second position, and the first ice outlet and the second ice outlet are respectively blocked when the switching plate is in the first position and the second position;

the driving assembly comprises a driving motor, a driving shaft sleeve and a spring, wherein the driving motor is fixedly arranged below the ice storage cavity, the lower end part of the driving shaft sleeve is connected with an output shaft of the driving motor in a linkage manner, the upper end part of the driving shaft sleeve penetrates through the bottom of the ice storage cavity to be connected with an upper impeller in a linkage manner, and a shelving part is arranged in the middle of the driving shaft sleeve;

The switching plate is sleeved on the driving shaft sleeve and is placed on the placing part, a meshing transmission structure is arranged between the placing part and the switching plate, the spring acts on the placing part to enable the placing part to always have acting force for upward movement and stable meshing transmission with the switching plate, and meanwhile, when the switching plate is blocked from rotating, the spring can be compressed to adapt to downward movement of the placing part.

2. The ice discharging device according to claim 1, wherein the driving assembly further comprises a spring housing arranged outside the driving shaft sleeve, and the spring is sleeved on the driving shaft sleeve and is in abutting connection between the rest part and the spring housing;

The rest part is integrally connected with the driving shaft sleeve, and the lower end part of the driving shaft sleeve is limited to circumferentially rotate and is sleeved on the output shaft of the driving motor and can axially slide along the output shaft.

3. The ice discharging device according to claim 1, wherein a driving piece is arranged between the placing part and the switching plate, the driving piece is sleeved on the driving shaft sleeve and is mounted on the placing part in a manner of limiting circumferential rotation, a plurality of linkage grooves are formed in the periphery of the upper surface of the driving piece at intervals, and linkage protrusions matched with the linkage grooves are correspondingly arranged on the lower surface of the switching plate.

4. An ice discharging device according to claim 3, wherein both sides of the linkage groove corresponding to the notch are provided with guiding inclined planes, and the lower end part of the linkage protrusion is in a spherical structure.

5. An ice discharging device according to claim 3, wherein the rest portion is provided with a blocking edge along the periphery of the outer edge thereof, the driving piece is embedded in an embedded groove formed by the blocking edge, a clamping groove is formed in the lower surface of the driving piece, and a clamping block matched with the clamping groove is correspondingly arranged on the upper surface of the rest portion.

6. The ice dispensing apparatus of claim 1, further comprising an ice crushing assembly correspondingly mounted at the second ice outlet for crushing passing ice cubes.

7. The ice discharging device as claimed in claim 1, wherein the switching plate has a fan-shaped structure and a baffle portion for closing the first ice outlet or the second ice outlet is formed at an outer edge thereof to be folded upward.

8. The ice discharging device according to claim 1, wherein the pulsator is mushroom-shaped, a plurality of pits are formed in the periphery of the upper surface of the head of the pulsator at intervals, and the rod portion of the pulsator is sleeved on the upper end portion of the linkage shaft sleeve.

9. The ice discharging device according to claim 8, wherein a first water blocking rib is disposed on the lower surface of the head of the pulsator corresponding to the outer Zhou Huanzhou of the shaft portion, and a second water blocking rib matched with the first water blocking rib is disposed on the upper surface of the bottom of the ice storage cavity.

10. An ice maker comprising an ice making assembly, a water tank assembly, a control panel assembly, and an ice discharge device according to any one of claims 1-9;

the control panel assembly is in signal connection with the ice making assembly, the water tank assembly and the ice discharging device;

The water tank assembly is used for supplying water required for making ice to the ice making assembly, and the ice making assembly is used for cooling the water supplied by the water tank assembly to prepare ice cubes;

The ice storage cavity of the ice discharging device is positioned below the ice making assembly to receive ice cubes prepared by the ice making assembly and discharge the ice cubes through the first ice discharging port or the second ice discharging port according to the requirement.